Abstract Overview: Recent advances in near-infrared photonic transmission suggest new frontiers for non-invasive brain diagnostics. Building on this, I propose a frequency-mapped model of human brain function, correlating specific frequency bands (Gamma to Delta) with gene activity, memory encoding, motor control, and metabolic demand. Each individual exhibits a unique neural frequency signature that can be captured non-invasively and targeted photonically for therapeutic benefit.
NEURAL FREQUENCY GRID – GK THEORY
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Frequency | Signal | Functional Domain | Therapeutic Insight |
Gamma | ↑↑↑ | Memory Encoding | Target for cognitive enhancement |
Beta | ↑↑ | Motor Control, Focus | Precision rehabilitation target |
Alpha | ↔ | Regulation, Rhythmic | Circadian and planning support |
Theta | ↓ | Emotional Recall | Behavior and therapeutic feedback |
Delta | ↓↓ | Neural Recovery | Deep rest and neuroplasticity |
Key Concepts: • High-frequency areas (Gamma/Beta) correlate with elevated protein expression and task completion • Low-frequency areas (Theta/Delta) show behavioral delay, reflection, and reduced signal output • Mid-frequency Alpha rhythms regulate cross-domain planning over circadian cycles • Light stimulation (e.g., NIR lasers) at frequency-aligned sites may restore underactive regions • Frequency identity = a “neural fingerprint” guiding individualized therapy
Applications Proposed: ✔ EEG + fNIRS fusion to develop patient-specific frequency maps ✔ Light-based neurostimulation tailored to hypoactive signatures ✔ Diagnostic modeling for early motor dysfunction and memory decline
I’m open to constructive critique, collaborative research, and connecting with peers exploring frequency-resonant neuromodulation, optogenetics, or brain–machine interface technologies. Anyone experimenting with transcranial photonic mapping or applying frequency-coupled AI algorithms to EEG/fNIRS datasets—I’d be thrilled to engage.
— George Klauck GK Functional Signature Theory Comment originally based on research in response to the University of Glasgow NIR photonics breakthrough.
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